Unit name | Finite Element Analysis |
---|---|
Unit code | MENG33111 |
Credit points | 10 |
Level of study | H/6 |
Teaching block(s) |
Teaching Block 1 (weeks 1 - 12) |
Unit director | Professor. Pavier |
Open unit status | Not open |
Pre-requisites | |
Co-requisites |
None |
School/department | School of Engineering Mathematics and Technology |
Faculty | Faculty of Engineering |
Finite Element Analysis (FEA) is the principle method of computer analysis used by mechanical engineers to ensure their designs are fit for purpose. The FEA unit is divided into two components: Practical FEA and Theory of FEA. The Practical FEA component is run as a computing class using commercial FEA software. The students are first given some exercises to gain familiarity with the software. They then carry out a number of assessed exercises culminating in the design of a helicopter floor panel. The Theory of FEA component is a lectured course that gives students an insight into the underlying principles of FEA. The course begins with the analysis of pin-jointed structures using an FEA approach and then considers the application of FEA to stress analysis using simple triangular elements. Finally the course covers more complicated elements for stress analysis and introduces advanced topics such as iterative solutions to non-linear problems.
Aims:
The unit aims to introduce students to the basic procedures in carrying out a practical finite element analysis and to understand the underlying theoretical basis.
On completion of the unit the student should be able to:
In Theory of Finite Element Analysis the students have a 1 hour lecture for 12 weeks. They are provided with a comprehensive handout. Use is made of a VLE for additional teaching material.
In Practical Finite Element Analysis students received a 1 hour introductory lecture followed by a 1 hour computer class for 10 weeks.
Theory of Finite Element Analysis: 2 hour exam (50%)
Practical Finite Element Analysis: 2 coursework assessments (50% - 25% each assessment)
Coursework Deadlines: Assuming the Practical part of the course runs in Weeks 1-12 the deadlines are at the end of week 6 and the end of week 12.
Finite Element Analysis: Theory and Practice, M. J. Fagan, (Longman), 1992
Using Finite Elements in Mechanical Design, J. T. Mottram & C.T. Shaw (McGraw-Hill), 1996
Finite Element Modelling for Stress Analysis, R.D. Cook, (John Wiley), 1995
Schaum's Outline of Theory and Problems of Finite Element Analysis: Including Hundreds of Solved Problems, G. R. Buchanan, (McGraw-Hill), 1995